Angled mini arm having a clevis assembly

ABSTRACT

The present invention provides an extension arm apparatus with angled clevis operation to provide enhanced mechanical leverage. The clevis adjusts along a path angled relative to an axis of the device, which significantly boosts performance and can reduce the size of the apparatus. Upper and lower channels of the device taper from a first width to a second width, providing a sleek and functional apparatus that can be used with heavy monitors, displays or other user equipment. When a forearm extension attached to an endcap of the apparatus, an interlocking washer and shaft configuration prevents the forearm extension-endcap connection from loosening during operation.

CROSS-REFERENCE TO RELATED APPLICATION

This application is related to U.S. patent application Ser. No.11/141,425, filed concurrently herewith and entitled “TAPERED MINI ARMHAVING AN ANTI-LOOSENING MECHANISM,” the entire disclosure of which ishereby expressly incorporated by reference herein.

BACKGROUND OF THE INVENTION

The present invention relates to a device for use in connectingelectronic and other user devices. More particularly, the presentinvention relates to compact and versatile extension arms on whichelectronic devices such as flat panel displays, keyboards, etc. can bemounted.

In the past people have placed video monitors and other electronicequipment on desks, tabletops, or upon other equipment such as personalcomputers or workstations. One drawback to these configurations is thereduction in available workspace taken up by the equipment. Anotherdrawback is the inability to place the equipment in a desired location.A further drawback is the potential for eye strain, neck strain and/or acumulative trauma disorder such as carpel tunnel syndrome from poorplacement of devices such as monitors and keyboards.

Different solutions have been provided in order to overcome theseobstacles. For example, in one solution, a monitor stand or printerstand elevates the apparatus over other equipment on a desk. While thismay free up workspace, it often places the equipment in an undesirablelocation. Another solution employs a mechanical extension arm to supportthe monitor. Extension arms free up workspace and allow users to placethe equipment where it is wanted. One such extension arm is shown anddescribed in U.S. Pat. No. 6,478,274, entitled “Arm Apparatus forMounting Electronic Devices,” which is fully incorporated by referenceherein. Another type of extension arm is shown and described in U.S.Pat. No. 6,409,134, entitled “Arm Apparatus For Mounting ElectronicDevices With Cable Management System,” which is fully incorporated byreference herein.

It is often desirable to obtain additional freedom of movement beyondthat provided by the extension arm. A tilting device can be used toaccomplish this goal. The tilting device is placed between the extensionarm and the equipment, allowing the equipment to rotate about one ormore axes. One such tilting device is shown and described in U.S. Pat.No. 6,505,988, entitled “Tilter for Positioning Electronic Devices,”which is fully incorporated by reference herein.

FIGS. 1-7 illustrate a known extension arm 10 for mounting an electronicdevice. As shown in FIG. 1, the main elements of the extension arm 10are a first endcap 12, an upper channel 14, a lower channel 16, a secondendcap 18, and a forearm extension 20. The first endcap 12 has an endcapshaft 22 that is pivotably attachable to a rigid support mount (notshown), such as an orifice sized to accept the endcap shaft 22 or atrack configured and sized to engage the grooves on endcap shaft 22. Theshaft 22 is rotatable about an axis 24. The first endcap 12 is pivotablycoupled via pins 26 to both the upper channel 14 and the lower channel16. The pins 26 extend through receptacles in the upper and lowerchannels and span the width of the first endcap 12. As seen in thefigure, the pins 26 are vertically aligned along a line 28 that isparallel to the axis 24. The opposite ends of the upper channel 14 andthe lower channel 16 are pivotably coupled via pins 26′ to the secondendcap 18. The forearm extension 20 is pivotably coupled to the secondendcap 18 by the endcap shaft 22′, which may be a hollow tubular memberfixedly attached to the second endcap 18. The forearm extension 20 has avertically disposed hole 30 therethrough for accepting a shaft 32 of amounting device (not shown) such as a tilter, platform or otherapparatus. The forearm extension 20 includes a hollow interior 34 sothat a cable 36 of the mounted device can pass through the forearmextension 20. The cable 36 can extend through a hollow tubular member ofthe second endcap 18. The cable 36 can pass through a sheath or cover 38attached to the lower channel 16. The hollow interior 34 and/or thesheath 38 hide the cable 36 from view.

The combination of the upper and the lower channels 14, 16 and the firstand the second endcaps 12, 18 form an adjustable parallelogram thatpermits a device coupled to the forearm extension 20 to be raised andlowered to a desirable height. The parallelogram retains its position byemploying an extension/retraction device such as a gas spring 40, whichis pivotably and adjustably attached to the first endcap 12 and theupper channel 14, as will be further described below. Generally, the gasspring 40, e.g., a gas type hydraulic cylinder and a retractable pistonrod, is sized so as to have a fixed length until an upward or downwardforce is exerted at the second endcap 18 that exceeds the gas spring'sdesigned resistance. Thus, the gas spring 40 causes the parallelogram toretain its position when the only force exerted at the second endcap 18is the weight of the device, but permits the parallelogram to beadjusted when a user pushes the device coupled to the forearm extension20 up or down.

FIG. 2 illustrates a side view of the first endcap 12, having the endcapshaft 22 disposed on a first end 42 of the first endcap 12. To provide arigid connection between the two pieces, the endcap shaft 22 istypically machined from steel and is inserted into the first end 42during the casting process of the first endcap 12. The endcap shaft 22has a hole 44 formed in an end of the endcap shaft 22 that is insertedinto the first endcap 12. The first endcap 12 is typically fabricatedfrom cast aluminum. The first endcap 12 also has a second end 46 havinga hole 48 disposed therethrough. Disposed within the first endcap 12 isa threaded rod 50. A first end 52 of the threaded rod 50 is insertedinto the hole 44 at the base of the endcap shaft 22. A second end 54 ofthe threaded rod 50 is aligned with the hole 48 and is held in place bya clip 56. The clip 56 is fastened to an inner surface of the firstendcap 12 by screws 58. The threaded rod 50 is parallel to the line 28and is typically aligned along the axis 24.

Threadedly mounted on the threaded rod 50 is a clevis 60. FIG. 3illustrates a side view of the clevis 60 including a tapped hole 62 inthe center thereof. The tapped hole 62 receives the threaded rod 50, asshown in FIG. 2. At a first end of the clevis 60 is a pair of fasteningmembers 64, 66 to which is fastened one end of the gas spring 40. Asecond end 68 of the clevis 60 is configured to slideably engage a track70 which is integrally molded in the first endcap 12 (see FIG. 2). Thesecond end 54 of the threaded rod 50 is configured to be engaged by ahex-shaped key, which is inserted through the hole 48 when the secondend 54 is properly aligned with the hole 48. The hex-shaped key isemployed so as to rotate the threaded rod 50 along its axis of rotation.When the threaded rod 50 is rotated along its axis of rotation, theclevis 60 moves along the length of the threaded rod 50 in a directionthat corresponds to the direction which the hex-shaped key is turned.This movement of the clevis 60 permits the gas spring 40 to be adjusted.Specifically, the clevis 60 moves up or down along the track 70 in apath parallel to the line 28.

FIGS. 4A and 4B illustrate the upper channel 14, which comprises channelbottom 72 from which extend two channel sidewalls 74. Channel bottom 72and sidewalls 74 are typically stamped from 13 gauge steel sheet inorder to give the upper channel 14 a desired degree of structuralrigidity. At each of the ends of the channel bottom 72, a semi-circularregion 76 of the sidewalls 74 is cut out to accommodate cold-rolledsteel rollers 78, which have a hole 79 therethrough for receiving thepins 26 or 26′. The rollers 78 are rigidly attached to the upper channel14 by MIG welding along the edge of the semi-circular cut out region 76and along the ends of the channel bottom 72. Alternatively, the rollers78 are integrally cast with the exterior of the upper channel 14 duringfabrication.

Additionally, the upper channel 14 comprises stiffener 80, which iswelded to an inner surface of the channel bottom 72. Besides providingadditional structural rigidity to the upper channel 14, the stiffener 80has a hole disposed at one end with a threaded ball stud 82 placedwithin the hole and fixed in place by a nut 84. The ball stud 82 isconfigured and sized to receive one end of the gas spring 40. Thelongitudinal centerline 85 of the upper channel 14 is illustrated inFIG. 4B. FIGS. 4C and 4D illustrate an alternative upper channel 14′.The upper channel 14′ is constructed to optionally include internalreinforcements. This is particularly advantageous when mounting heavyelectronic devices to the extension arm, for example, large computermonitors of the CRT type. Internal within the upper channel 14′ is a ribassembly including a plurality of cross-ribs 86 and angularly disposedsecondary ribs 87. By way of example, the cross-ribs 86 are disposedtransverse to the sidewalls 74, while the secondary ribs 87 are disposedat an angle so as to form a triangular internal support structure. Thecross-ribs 86 and secondary ribs 87 may be formed as an integral memberwhich can be inserted into the upper channel 14′. The cross-ribs 86 andsecondary ribs 87 can be integrally cast during formation of the upperchannel 14′.

FIGS. 5A and 5B illustrate the lower channel 16, which comprises achannel bottom 88 from which extend two channel sidewalls 90. As withthe upper channel 14, the channel bottom 88 and sidewalls 90 aretypically stamped from 13 gauge steel sheet, which is relatively heavyin order to give the lower channel 16 a desired degree of structuralrigidity. At opposite ends of the channel bottom 88, a semi-circularregion 91 of the sidewalls 90 is cut out to accommodate cold-rolledsteel rollers 92, which have a hole 93 therethrough for receiving thepins 26 or 26′. The rollers 92 are rigidly attached to the lower channel16 by MIG welding along the edge of the semi-circular cut out region 91and along the ends of the channel bottom 88. Alternatively, the rollers92 are integrally cast with the exterior of the lower channel 16 duringfabrication. The longitudinal centerline 94 of the lower channel 16 isillustrated on FIG. 5B.

FIG. 6 illustrates a variant of the second endcap 18 of FIG. 1. Unlikethe first endcap 12, the second endcap 18 does not have a clevisassembly for attachment to the gas spring 40. The alternative secondendcap 18 shown in FIG. 6 omits the endcap shaft 22′ for receiving theforearm extension 20, as illustrated in FIG. 1. Instead, the endcap 18may include hole 95 at one end for receiving a shaft of the forearmextension 20. The endcap 18 may also include hole 96 for receiving a setscrew (not shown) to prevent rotation of the forearm extension 20 aboutthe endcap 18.

FIG. 7A illustrates the forearm extension 20 having a central arm 31 andfirst and second ends 33, 35, respectively, attached to the central arm31. The first end 33 includes an opening 37 for connection with theendcap shaft 22′ of the second endcap 18. The second end 35 includes theopening 30 for receiving the shaft of the device mount. An opening 39 isprovided for access to the interior 34. As seen in the cutaway view ofFIG. 7B along the A-A line, there is, access to the opening 37 of thefirst end 33 via region 41, which allows the cable 36 to be hidden fromview.

Known extension arms, such as those in FIGS. 1-7, may operatesatisfactorily, but may not be well suited for sleeker, more compactdesigns. Reducing the size of some components can, if not correctlyengineered, adversely impact equipment performance. By was of exampleonly, an extension arm may be made smaller by reducing the dimensions ofthe upper and lower channels. Such a modification would necessitatereducing size of the gas spring. Unfortunately, if the overall structureof the extension arm remains the same as the size is reduced, a smallergas spring typically cannot handle the load of a large device, and, inturn, cannot support larger monitors or other equipment. In addition,some of the connection between components, such as the connectionbetween the forearm extension 20 and the second endcap 18, can becomeloose, for example after repeatedly adjusting or rotating the forearmextension 20. Loose connections could potentially lead to hazardousconditions. Therefore, a need exists for new extension arm designs toaddress these and other concerns.

SUMMARY OF THE INVENTION

In accordance with an embodiment of the present invention, an adjustablesupport apparatus is provided. The apparatus comprises first and secondendcaps, first and second channels, and a clevis assembly. The firstendcap has a first section for connecting to a mount, a second sectionconnected to the first section, and a clevis receiving member connectedto one or both of the first and second sections. The first endcap alsohas a longitudinal axis therealong. The second endcap has first andsecond sections. The first section of the second endcap supports a userdevice and the second section is connected to the first section of thesecond endcap. The first channel has first and second ends. The firstend of the first channel is connected to the second section of the firstendcap. The second end of the first channel is connected to the secondsection of the second endcap. The second channel has first and secondends. The first end of the second channel is connected to the secondsection of the first endcap. The second end of the second channel isconnected to the second section of the second endcap. The clevisassembly includes a clevis in operative engagement with the clevisreceiving member of the first endcap and with a spring member coupled tothe first channel. The clevis is adjustable along the clevis receivingmember at a predetermined angle relative to the axis of the first endcapto change a compression state of the spring member.

In one alternative, the clevis assembly further comprises a rod inthreaded engagement with the clevis. The rod is positioned at thepredetermined angle relative to the axis of the first endcap. In anotheralternative, the predetermined angle is between 10° and 80°. In afurther alternative, the predetermined angle is between about 45° to70°. In yet another alternative, the first endcap includes a housingconnecting the first and second sections. In this case, the clevisreceiving member is disposed along an interior sidewall of the housing.The clevis receiving member includes a surface having the predeterminedangle sloping from the second section to the first section.

In another alternative, the adjustable support apparatus furtherincludes a first fastener having a first length and a pair of secondfasteners each having a second length shorter than the first length. Thefirst end of the first channel connects to the second section of thefirst endcap with the first fastener and the first end of the secondchannel connects to the second section of the first endcap with the pairof second fasteners. In this case, the first endcap preferably includesa housing connecting the first and second sections. Here, the housingincludes a pair of reinforcing members to support the pair of secondfasteners therein.

In a further alternative, the adjustable support apparatus furthercomprises at least one endcap cover. Here, the first endcap furtherincludes a flange member connected to the first and second sections. Theat least one endcap cover is adapted to be placed adjacent to the flangemember and cover a portion of the first endcap. In another alternative,the first channel further includes an integrally molded connector havingan angled receiving member for securing the spring member to the firstchannel. In this case, the adjustable support apparatus desirablyfurther comprises a retaining cover connectable to the first channel.The spring member is secured to the first channel between the retainingcover and the angled receiving member. In another alternative, the firstchannel further includes a reinforcement structure therein.

In accordance with another embodiment of the present invention, anadjustable support apparatus is provided. The apparatus comprises firstand second endcaps and first and second channels. The first endcap hasfirst and second ends and a longitudinal axis from the first end to thesecond end. The second end includes means for mounting the adjustablesupport apparatus to a surface. The second endcap has means forsupporting a user device. The first channel has first and second ends.The first end of the first channel is connected to the first end of thefirst endcap, and the second end of the first channel is connected tothe second endcap. The second channel has first and second ends. Thefirst end of the second channel is connected to the first end of thefirst endcap, and the second end of the second channel is connected tothe second endcap. The first and second channels define a cavity forcontaining a spring mechanism therein. The adjustable support apparatusalso includes means for adjusting the spring mechanism. The adjustingmeans is moveable along a path at a predetermined angle relative to theaxis of the first endcap.

In accordance with yet another embodiment of the present invention, anadjustment assembly for adjustably supporting a device with an extensionand retraction mechanism is provided. The adjustment assembly comprisesa housing, a clevis and a channel apparatus. The housing has alongitudinal axis therealong and a track positioned at an angle relativeto the longitudinal axis. The clevis has first and second ends. Thefirst end has a surface for engaging the track and the second end has anopening therein for connecting to the extension and retraction mechanismat a first end thereof. The channel apparatus has a first end connectedto the housing and a second end connected to a second end of theextension and retraction mechanism. The clevis is adjustable along thetrack to change positioning of the extension and retraction mechanism.

In one alternative, the adjustment assembly further comprises a rod anda retaining plate. The rod threadedly adjusts the clevis along thetrack. The rod having a head at one end thereof, a tip remote from thehead, and a threaded section disposed between the head and the tip. Theretaining plate secures the rod to an edge of the housing. The edge ofthe housing and the retaining plate including mating recesses defining areceptacle for receiving the tip of the rod therein.

In one example, the clevis includes bottom and top surfaces that aresubstantially parallel to one another, and the opening of the clevis ispositioned at a height at a midpoint between the bottom and topsurfaces. In another example, the clevis includes bottom and topsurfaces that are substantially parallel to one another, and the openingof the clevis is positioned at a height above a midpoint between thebottom and top surfaces. Here, the second end of the clevis ispreferably angled upward. In a further example, the clevis includesbottom and top surfaces that are substantially parallel to one another,and the opening of the clevis is positioned at a height below a midpointbetween the bottom and top surfaces. In this case, the second end of theclevis is preferably angled downward.

In an alternative, the second end of the clevis includes a pair ofspaced apart fastening members and the opening comprises a pair ofaligned opening. A first one of the openings is positioned in a firstone of the fastening members and a second one of the openings ispositioned in the second one of the fastening members. The clevisincludes a receptacle for threadedly adjusting the clevis along thetrack. The angle of the track is a first angle relative to thelongitudinal axis and the receptacle is positioned at a second anglerelative to the longitudinal axis. The first and second angles may besubstantially equal.

In accordance with yet another embodiment of the present invention, anadjustable extension arm is provided. The adjustable extension armcomprises first and second channel members and first and second endcaps.The first channel member has a first end, a second end opposite thefirst end, and a pair of sidewalls extending from the first end to thesecond end. The pair of sidewalls of the first channel member taper froma first width at the first end thereof to a second width at the secondend thereof. The second channel member has a first end, a second endopposite the first end, and a pair of sidewalls extending from the firstend to the second end. The pair of sidewalls of the second channelmember taper from a third width at the first end thereof to a fourthwidth at the second end thereof. The sidewalls of the first and secondchannel members at least partly receive a spring member therebetween.The first endcap has first and second sections. The first section iscoupled to the first channel member about the first end thereof and tothe second channel member about the first end thereof. The second endcaphas first and second sections. The first section of the second endcap iscoupled to the first channel member about the second end thereof and tothe second channel member about the second end thereof.

In one alternative, the third width is substantially equal to the firstwidth and the fourth width is substantially equal to the second width.In another alternative, the tapering of the sidewalls of the first andsecond channel members is substantially uniform and continuous from thefirst ends to the second ends.

In a further alternative, the sidewalls of the second channel membereach comprise a stepped sidewall each having first and second sections.The first section of each stepped sidewall is recessed relative to thesecond section thereof. In this case, the first channel memberpreferably includes a pair of planar sidewalls having inner surfaces inoperative communication with outer surfaces of the first sections of thestepped sidewalls. Here, the inner surfaces of the planar sidewalls aredesirably spaced apart from the outer surfaces of the first sections ofthe stepped sidewalls so that the planar sidewalls are moveable relativeto the stepped sidewalls during adjustment of the adjustable extensionarm.

In another alternative, the second channel member includes a coverhaving an open region near the first endcap and the spring member atleast partly protrudes through the open region.

In accordance with another embodiment of the present invention, anextension arm apparatus for supporting a user device is provided. Theapparatus comprises first and second endcaps, first and second channels,and a forearm assembly. The first endcap has a first section forconnection to a mount and a second section connected to the firstsection thereof. The second endcap also has first and second sections.The first channel has first and second ends. The first end of the firstchannel is connected to the second section of the first endcap and thesecond end of the first channel is connected to the first section of thesecond endcap. The second channel has first and second ends. The firstend of the second channel is connected to the second section of thefirst endcap and the second end of the second channel is connected tothe first section of the second endcap. The first and second channelsdefining a receptacle for a spring device. The forearm assembly includesan anti-loosening apparatus and a forearm extension. The forearmextension has a first end operatively coupled to the second section ofthe second endcap and a second end for supporting the user device. Theanti-loosening apparatus permits rotation of the forearm extensionrelative to the second endcap while preventing loosening between theforearm extension and the second endcap during rotation.

In one alternative, the second section of the second endcap includes areceptacle having an opening therein, the first end of the forearmextension includes a shaft and at least one recess disposed in theshaft, the shaft is at least partly received within the opening in thesecond section of the second endcap, and the forearm assembly furthercomprises a washer and a fastener. The washer has at least oneprotrusion adapted to be received within the at least one recess toconnect the washer to the shaft. The fastener secures the second sectionof the second endcap, the washer and the shaft together so that theshaft is rotatable relative to the second section of the second endcap.

In this case, the fastener is preferably threadedly secured to theshaft, and the connection between the washer and the shaft prevents thefastener from loosening during movement of the forearm extension. In analternative, the forearm assembly further comprises a bushing positionedin the opening of the receptacle to at least partly surround the shaft.In another alternative, the forearm assembly further comprises an outerwasher disposed between an exterior surface of the forearm extension andan exterior surface of the receptacle. In yet another alternative, theat least one recess comprises a pair of recesses disposed along an outersurface of the shaft. Here, the at least one protrusion of the washercomprises a pair of protrusions adapted to be received within the pairof recesses.

In a further alternative, the first channel tapers from a first width atthe first end thereof to a second width at the second end thereof, thesecond channel tapers from a third width at the first end thereof to afourth width at the second end thereof, and the forearm extension tapersfrom a fifth width at a first end adjacent to the second endcap to asixth width at a second end remote from the second endcap. In this case,the third width is preferably substantially equal to the first width andthe fourth width is preferably substantially equal to the second width.

In accordance with a further embodiment of the present invention, anextension arm apparatus for supporting a user device is provided. Theapparatus comprises first and second endcaps, first and second channelsand a forearm extension. The first endcap has means for mounting to asurface. The first channel has first and second ends. The first end ofthe first channel is connected to the first endcap and the second end ofthe first channel is connected to the second endcap. The second channelhas first and second ends. The first end of the second channel isconnected to the first endcap and the second end of the second channelis connected to the second endcap. The forearm extension has first andsecond ends. The first end of the forearm extension is operativelycoupled to the second endcap. The second end of the forearm extension isoperatively coupled to the user device. The apparatus further includesmeans for preventing loosening between the forearm extension and thesecond endcap.

In accordance with yet another embodiment of the present invention, anextension arm apparatus for positioning a user device is provided. Theapparatus comprises first and second housings, a channel assembly, asupporting device and a connection assembly. The first housing is usedto secure the extension arm apparatus to a support. The second housingis remote from the first housing and includes a receptacle therein. Thechannel assembly connects the first and second housings and isadjustable to change positioning of the extension arm apparatus. Thesupporting device is connectable to the user device and includes a firstconnecting member on a surface thereof. The connection assembly is usedfor connecting the supporting device to the second housing. Theconnection assembly includes a washer and a fastener. The washer has anopening therethrough and a second connecting member on a first surfacethereof. The second connecting member secures to the first connectingmember of the supporting device. The fastener is insertable through theopening of the washer and the receptacle of the second housing tothreadedly engage the supporting device. The supporting device isrotatable about the second housing while the first and second connectingmembers prevent loosening of the supporting device relative to thesecond housing.

In one alternative, the supporting device includes a shaft having thefirst connecting member. The receptacle of the second housing includes alip. In this case, the extension arm apparatus further comprises abushing disposed around the shaft. The bushing is retained within thereceptacle of the second housing between the lip and the washer. Inanother alternative, the supporting device comprises a forearmextension. In a further alternative, the supporting device comprises atilting device.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an assembly drawing of a conventional extension arm formounting a computer monitor.

FIG. 2 illustrates a first endcap of the extension arm illustrated inFIG. 1.

FIG. 3 illustrates the clevis assembly of the extension arm illustratedin FIG. 1.

FIGS. 4A-D illustrate an upper channel of a conventional extension arm.

FIGS. 5A-B illustrate an lower channel of a conventional extension arm.

FIG. 6 illustrates a second endcap of a conventional extension arm.

FIGS. 7A-B illustrates a forearm extension of a conventional extensionarm.

FIG. 8 illustrates an assembled extension arm in accordance with apreferred embodiment of the present invention.

FIG. 9 illustrates an exploded view of the extension arm of FIG. 8.

FIGS. 10A-F illustrate a preferred embodiment of an endcap in accordancewith aspects of the present invention.

FIGS. 11A-C illustrate a fastener in accordance with an aspect of thepresent invention.

FIGS. 12A-P illustrate preferred embodiments of a clevis in accordancewith aspects of the present invention.

FIGS. 13A-E illustrate a retaining plate in accordance with an aspect ofthe present invention.

FIGS. 14A-D illustrates an exploded view of a clevis assembly inaccordance with a preferred embodiment of the present invention.

FIGS. 15A-D illustrate endcap covers in accordance with an aspect of thepresent invention.

FIGS. 16A-H illustrate an endcap and clevis assembly in accordance witha preferred embodiment of the present invention.

FIGS. 17A-F illustrate an upper channel in accordance with a preferredembodiment of the present invention.

FIGS. 18A-E illustrate a cover device for use with the upper channel ofFIGS. 17A-F.

FIGS. 19A-E illustrate a lower channel in accordance with a preferredembodiment of the present invention.

FIGS. 20A-F illustrate an endcap in accordance with a preferredembodiment of the present invention.

FIGS. 21A-D illustrate an endcap cover in accordance with aspects of thepresent invention.

FIGS. 22A-B illustrate exploded views of a forearm assembly inaccordance with a preferred embodiment of the present invention.

FIGS. 23A-D illustrate a preferred embodiment of a washer in accordancewith aspects of the present invention.

FIGS. 24A-B illustrate the forearm assembly of FIGS. 22A-B connected toan endcap in accordance with a preferred embodiment of the presentinvention.

FIGS. 25A-B illustrates an exploded view of a tilting device for usewith the present invention.

FIGS. 26A-B illustrate an extension arm connected to a display device inaccordance with aspects of the present invention.

FIGS. 27A-F illustrate adjustment of an extension arm in accordance withaspects of the present invention.

FIGS. 28A-F illustrate adjustment of an extension arm in accordance withadditional aspects of the present invention.

FIGS. 29A-F illustrate selected positioning of an extension arm inaccordance with aspects of the present invention.

DETAILED DESCRIPTION

In describing the preferred embodiments of the invention illustrated inthe appended drawings, specific terminology will be used for the sake ofclarity. However, the invention is not intended to be limited to thespecific terms used, and it is to be understood that each specific termincludes all technical equivalents that operate in a similar manner toaccomplish a similar purpose.

FIG. 8 illustrates an extension arm 100 in accordance with a preferredembodiment of the present invention. The extension arm 100 isconnectable at one end to a mounting assembly 400 and attachable to atilting device 300 at the other end. The mounting assembly 400 may be ofany desired configuration, and may be affixed to a piece of furnituresuch as a desk, a wall such as a slat wall, a section of an officecubicle, etc. The tilting apparatus 300 is connectable to a user device302 such as a flat panel monitor, although other electronic ornon-electronic devices may connect to the tilting apparatus 300.Alternatively, the user device 302 may directly connect to the extensionarm 100.

FIG. 9 illustrates an exploded view of the extension arm 100. As shownin the figure, the extension arm 100 preferably includes a first endcap102, an upper channel 104, a lower channel 106, a second endcap 108, anda forearm extension 110. An extension and retraction device, such as agas spring 112, permits the extension arm 100 to be adjusted and toretain a selected configuration. One end of the gas spring 112preferably connects to the upper channel 104 and the other end connectsto the first endcap 102, as will be described below. The gas spring 112may be equivalent to the conventional gas spring 28 discussed above.However, as will be discussed below, the gas spring 112 may be operatedin a manner different than in the extension arm 10. The components ofthe extension arm 100 will now be discussed in detail.

FIGS. 10A-F illustrate views of the first endcap 102. As seen in theperspective view of FIG. 10A, the first endcap 102 includes a housing114, which is adapted to attach to one end of the upper channel 104 andthe lower channel 106 by, for example, pins. The housing 114 preferablyincludes a first or bottom end 116, a second or top end 118, and asidewall 120 connecting the first end 116 and the second end 118. Thesecond end 118 is shown as being angled relative to the first end 116,although this is not required. The sidewall 120 is preferably generallyU-shaped or C-shaped and open along one side thereof.

The first endcap 102 includes axis 121. Depending upon the configurationof the first endcap 102, it may or may not be rotatable about the axis121. The axis 121 is shown as a central, longitudinal axis 121 runningthrough the approximate center of the first endcap 102. Preferably, thefirst endcap 102 includes pairs of upper and lower holes 122 a,b,respectively, disposed on the sidewall 120. As best seen in FIG. 10C,the upper and lower holes 122 a,b, are preferably vertically alignedalong a line or axis 123 that is parallel to the axis 121.Alternatively, the upper and lower holes 122 a,b may not be verticallyaligned, and the line 123 may be angled relative to the axis 121.

The housing 114 desirably attaches to the upper channel 104 by means ofa single elongated pin 124 a and to the lower channel 106 by means of apair of short pins 124 b. See FIG. 9. The elongated pin 124 a shouldextend at least the width of the housing 114 and engage the upperchannel 104. The short pins 124 b preferably extend less than half thewidth of the housing 114 and each engages a part of the lower channel106. It is also possible to attach the endcap 102 to the lower channel106 with an elongated pin such as the elongated pin 124 a. However, inthis case full extension and freedom of movement of the extension arm100 may not be fully realized, as a full-size elongated pin couldimpinge upon the movement of the gas spring 112.

As best seen in FIGS. 10A and 10F, interior portions of the sidewall 120preferably include reinforcing members 126 facing one another. Thereinforcing members 126 are positioned in line with the lower holes 122b. Preferably, the lower holes 122 b extend substantially into orcompletely through the reinforcing members 126, which providesadditional depth to receive the short pins 124 b. The reinforcingmembers 126 may be positioned on the sidewall only adjacent to the lowerholes 122 b, or may extend as shown toward the rear of the sidewall 120adjacent to the top end 118.

Also shown in FIGS. 10A and 10F is a track or clevis receiving member127, which is preferably positioned along the rear of the sidewall 120between the reinforcing members 126. The track 127 is desirably integralwith the sidewall 120 and may extend up from the first end 116 to thesecond end 118. The track 127 may be formed in the shape of a triangleand preferably includes an angled surface 127 a which slopes from thesecond end 118 to the first end 116. The angled surface 127 a is at anangle (i.e., non-parallel) relative to the axis 121 and preferably,relative to the line 123. The purpose of the angled surface 127 a willbe explained in detail below with regard to the clevis assembly.

As seen in FIGS. 10A-C and 10E-F, a shaft 128 or other connection devicemay be disposed on the first end 116 of the housing 114. The shaft 128is preferably adapted for connection to the mounting assembly 400. Theshaft 128 may be integrally molded with the first end 116 of the housing114. Alternatively, the shaft 128 may be securely attached to thehousing 114 of the first endcap 102. The shaft 128 is preferablyintegral with the first endcap 102.

As seen in FIGS. 10A and 10F, the housing 114 of the first endcap 102preferably includes a pair of holes or openings 130 disposed at or nearthe first end 116 of the housing 114. A recess 132 may be positionedbetween the holes 130 and in line with the track or clevis receivingmember 127. The holes 130 and the recess 132 can be used when attachingthe clevis assembly to the first endcap 102, as will be explained below.

As best seen in FIGS. 10B, D and F, the second end 118 of the housing114 preferably includes a hole 134 disposed therethrough. The hole 134is adapted to receive a threaded rod 136 (see FIGS. 11A-C) that is partof the clevis assembly. The exterior of the housing 114 may also includea flange member 138 having an upper flange 138 a disposed on or integralwith the second end 118 and a lower flange 138 b disposed on or integralwith the first end 116. The upper and lower flanges 138 a,b arepositioned at an angle Φ₁ relative to one another.

FIGS. 11A-C illustrate the threaded rod 136 in more detail. The threadedrod 136 includes a tip 140, a threaded portion 142 and a head 144 havinga flange 145. The head 144 is preferably positioned so that it isaccessible through the hole 134 in the second end 118 of the housing114.

The rod 136 threadedly engages a clevis 146. FIGS. 12A-H illustrate apreferred embodiment of the clevis 146 in detail. FIGS. 12A-B illustrateperspective views of the clevis 146, where it can be seen to include athreaded hole 148 therein. The hole 148 threadedly receives the threadedrod 136. As seen in the top view of FIG. 12C and the front view of FIG.12D, a first end 150 of the clevis 146 preferably includes a pair ofspaced apart fastening members 152 a,b. As seen in the side view of FIG.12E, the fastening members 152 a,b include aligned openings 154 therein.The openings 154 are positioned at a height H relative to the bottom ofthe clevis 146. In this embodiment, the openings 154 are positionedapproximately halfway between the base 155 a and the top 155 b of theclevis 146, along a center line 157. One end of the gas spring 112 isfastened to the fastening members 152 a,b via a gas spring pin 156 orother fastener received by the openings 154 (see FIG. 16D).

FIGS. 12F-H illustrate the hole 148 and the openings 154 in phantom. Asbest seen in FIG. 12G, the hole 148 is placed at an angle α, which canbe taken relative to the bottom or the top of the clevis 146, e.g. Inone embodiment, the angle α is at least about 20°. In anotherembodiment, the angle α is less than about 80°. In yet anotherembodiment, the angle α is between 45° and 75°. More preferably, theangle α is on the order of 60° to 70°. Most preferably, the angle α isapproximately 65°.

A second end 156 of the clevis 146 is configured to slideably engage thetrack 127 in the first endcap 102. More specifically, an engagementsurface 158 on the second end 156 of the clevis 146 is disposed on orotherwise placed in operative/mechanical contact with the angled surface127 a of the track 127. The engagement surface 158 is positioned at anangle β, which can be taken relative to the bottom or top, e.g., of theclevis 146. β is a non-zero angle relative to the axis 121. It isdesirable that the angle β is the same as the angle of the angledsurface 127 a. More preferably, the angle β is substantially the same oridentical to the angle α, such as between 20° and 80°, desirably 45° to75°.

FIGS. 12I-L illustrate an alternative preferred clevis embodiment. Thesefour figures present an upward angled clevis 146 ₁. A threaded hole 148₁ receives the threaded rod 136. As seen in the top view of FIG. 12J andthe side view of FIG. 12K, a first end 150 ₁ of the upward angled clevis146 ₁ preferably includes spaced apart fastening members 152 ₁, whichare angled upward. As seen in the side view of FIG. 12K and theperspective view 12I, the upward angled fastening members 152 ₁ includealigned openings 154 ₁ therein. The aligned openings 154 ₁ arepositioned at a height H₁ relative to the base of the clevis 146 ₁. Theheight H₁ is preferably greater than the height H of the clevis 146. Inthis embodiment, the height H₁ of the openings 154 ₁ are desirably abovea center line 157 ₁, e.g., greater than halfway between the base and thetop of the clevis 146 ₁. Thus, when the gas spring is connected to theclevis 146 ₁, the connection point will be at the height H₁ instead ofthe height H.

Similar to the hole 148 of the clevis 146, the hole 148 ₁ is desirablyplaced at an angle α₁, which can be taken relative to the bottom or thetop of the clevis 146 ₁. In one embodiment, the angle α₁ is at leastabout 20°. In another embodiment, the angle α₁ is less than about 80°.In yet another embodiment, the angle α₁ is between 45° and 75°. Morepreferably, the angle α₁ is on the order of 60° to 70°. Most preferably,the angle α₁ is approximately 65°. Alternatively, the angle α₁ may begreater than 80°, and in some situations may be substantially or exactly90°. As will be explained in more detail below, even when the angle α₁is close to or at 90°, the upward angled clevis 146 ₁ still provides aperformance improvement over a conventional clevis.

A second end 156 ₁ of the clevis 146 ₁ is configured to slideably engagethe track 127 in the first endcap 102. More specifically, an engagementsurface 158 ₁ on the second end 156 ₁ of the clevis 146 ₁ is disposed onor otherwise placed in operative/mechanical contact with the angledsurface 127 a of the track 127. The engagement surface 158 ₁ ispositioned at an angle β₁, which can be relative to the bottom or thetop of the clevis 146 ₁, e.g. Of course, it should be understood thatthe angle β₁ may be the same as the angle of the angled surface 127 a.More preferably, the angle β₁ is substantially the same or identical tothe angle α₁. For example, β₁ may be greater than 20° and less than 80°,such as between 45° and 75°, or 80° or more.

FIGS. 12M-P illustrate yet another preferred clevis embodiment. Thesefour figures present a downward angled clevis 146 ₂. A threaded hole 148₂ receives the threaded rod 136. As seen in the top view FIG. 12N andthe side view FIG. 120, a first end 150 ₂ of the downward angled clevis146 ₂ preferably includes spaced apart fastening members 152 ₂, whichare angled downward. As seen in the side view FIG. 12O and theperspective view 12M, the downward angled fastening members 152 ₂include aligned openings 154 ₂ therein. The aligned openings 154 ₂ arepositioned at a height H₂ relative to the base of the clevis 146 ₂. Inthis embodiment, the height H₂ of the aligned openings 154 ₂ aredesirably below a center line 157 ₂ less than halfway between the baseand the top of the clevis 146 ₂. The height H₂ is preferably less thanthe height H of the clevis 146. Thus, when the gas spring is connectedto the clevis 146 ₂, the connection point will be at the height H₂instead of the height H.

Similar to the hole 148 of the clevis 146, the hole 148 ₂ is desirablyplaced at an angle α₂ relative to the bottom of the clevis 146 ₂. In oneembodiment, the angle α₂ is at least about 20°. In another embodiment,the angle α₂ is less than about 80°. In yet another embodiment, theangle α₂ is between 45° and 75°. More preferably, the angle α₂ is on theorder of 60° to 70°. Most preferably, the angle α₂ is approximately 65°.Alternatively, the angle α₂ may be greater than 80°, and in somesituations may be substantially or exactly 90°. As will be explained inmore detail below, even when the angle α₂ is close to or at 90°, thedownward angled clevis 146 ₂ still provides a performance improvementover a conventional clevis.

A second end 156 ₂ of the clevis 146 ₂ is configured to slideably engagethe track 127 in the first endcap 102. More specifically, an engagementsurface 158 ₂ on the second end 156 ₂ of the clevis 146 ₂ is disposed onor otherwise placed in operative/mechanical contact with the angledsurface 127 a of the track 127. The engagement surface 158 ₂ ispositioned at an angle β₂ relative to the bottom or the top of theclevis 146 ₂. Of course, it should be understood that the angle β₂ maybe the same as the angle of the angled surface 127 a. More preferably,the angle β₂ is substantially the same or identical to the angle α₂. Forexample, β₂ may be between 20° and 80°, such as between 45° and 75°, or,alternatively, 80° or more.

FIGS. 13A-E illustrate another element of the clevis assembly,specifically a retaining plate 160. As seen in the perspective view ofFIG. 13A and the respective front and bottom views of FIGS. 13B-C, theretaining plate 160 preferably includes a pair of spaced apart knobs 161having through holes 162 adapted to receive fasteners 164 (see FIG. 9).The spaced apart knobs 161 are positioned at either end of a body 163.FIG. 13D illustrates a side view of the retaining plate 160. As seen inthe front view of FIG. 13B and the top view of FIG. 13F, it can be seenthat the retaining plate 160 preferably also includes a recess 166 alonga first side of the body 163.

FIG. 14 illustrates an exploded view of the clevis assembly, the firstendcap 102, and the mounting assembly 400. The mounting assembly 400 mayinclude a base 402 and a mounting cup 404 disposed thereon. The mountingcup 404 preferably includes an opening or receptacle 406 adapted toreceive the shaft 128 of the first endcap 102. A connecting member 408such as a bracket can be used to connect the mounting assembly 400 to apiece of furniture, a wall, or other stable support. Also shown in thefigure is a pair of first endcap covers 168. An alternative connectingmember 408 is shown in FIGS. 14B-D.

The pair of first endcap covers 168 are shown in more detail in FIGS.15A-D. As shown in the perspective view of FIG. 15A, the first endcapcovers 168 are each preferably formed as a single integral piece, whichmay be molded plastic or metal. The specific shapes of the endcap covers168 can be adapted based upon the configuration of the first endcap 102.As seen in the top view of FIG. 15B and the back view of FIG. 15C, thefirst endcap covers 168 are generally triangular in shape. The firstendcap covers 168 desirably each include a rib or base portion 170 whichmay be contoured or angled, and a cover 172. The cover 172 is preferablyintegrally formed with the base portion 170. A pair of pins, protrusionsor other fastening members 174 may be disposed on an inside face of thecover 172.

After the clevis assembly, the first endcap 102, and the upper and lowerchannels 104, 106 are connected together, as will be explained shortly,the first endcap covers 168 can be placed over the assembled components.The first endcap covers 168 are adapted to mask or hide some or all ofthe outer surfaces of the sidewall 120 of the first endcap 102, and canbe used to modify or enhance the appearance of the first endcap 102. SeeFIG. 8. The base portion 170 of each first endcap cover 168 preferablyfits between the upper and lower flanges 138 a,b on one side of thefirst endcap 102. A first pair 174 a of the fastening members 174 canconnect to holes or openings in the upper channel 104. A second pair 174b of the fastening members 174 can connect to holes or openings in thelower channel 106.

Referring back to FIG. 14A, the clevis assembly and the first endcap 102may be connected as follows. The clevis 146 is inserted into the housing114 of the first endcap 102. The engagement surface 158 on the secondend 156 of the clevis 146 is positioned in operative contact with theangled surface 127 a of the track 127 within the first endcap 102.

The threaded rod 136 is positioned inside the first endcap 102.Preferably, the flange 145 of the head 144 is positioned adjacent to aninterior surface of the hole 134. The threaded portion 142 of the rod136 threadedly engages the clevis 146. The tip 140 of the threaded rod136 fits into the recess 132 of the first endcap 102.

The retaining plate 160 is positioned so that the recess 166 faces therecess 132 and the through holes 162 align with the holes or openings130 disposed at or near the first end 116 of the housing 114. The tip140 is desirably retained in the opening created by the recesses 132 and166. The retaining plate 160 is secured to the housing 114 by thefasteners 164.

The partial assembly may be seen in FIGS. 16A-B. Here, the gas springpin 156 is shown connected to the pair of fastening members 152 a,b ofthe clevis 146. Optionally, one or more retaining rings 176 may securethe gas spring pin 156 to the fastening members 152 a,b. FIG. 16Cillustrates a cross sectional view along the A-A line of FIG. 16A. Ofcourse, it should be understood that the gas spring pin 156 will besecured to the fastening members 152 a,b in combination with the gasspring 112, as seen by the cross sectional view of FIG. 16D along theB-B line of FIG. 16B.

In a conventional extension arm assembly, such as in FIG. 1, oillubricates the piston as it slides along the cylinder in the gas spring40. If the piston is not properly lubricated, the gas spring 40 will notfunction properly. The oil or other fluid is typically placed within thecylinder in the gas spring 40, and the cylinder is maintained at a firstend of the gas spring 40 remote from the first endcap 12. However, dueto the novel arrangement in accordance with the present invention, thegas spring 112 is positioned so that the cylinder 112 a is maintained atan end of the gas spring 112 at or near the first endcap 102. If thecylinder 112 a were not connected to the first endcap 102 and insteadwere positioned oppositely and connected to the upper channel 104, thelubricating fluid could pool at the end of the cylinder 112 a adjacentto the piston. This pooling would not effectively lubricate the cylinder112 a. Thus, the flipped arrangement with the cylinder 112 a adjacent tothe first endcap ensures proper lubrication. Furthermore, flipping theplacement of the gas spring 112 enables a more compact design of theextension arm 100.

As seen in the cutaway view of FIG. 16D along the B-B line of FIG. 16B,the engagement surface 158 of the clevis 146, the angled surface 127 aand the threaded rod 136 are all preferably positioned at an angle θ tothe axis 121 of the first endcap 102. The angle θ is preferably at least10° and less than 80°. The angle θ may be between 15° and 75°. Morepreferably, the angle θ is between 20° and 40°. Most preferably, theangle θ is on the order of 25°. As seen in FIG. 16D, the line 123 b isparallel to the axis 121. Thus, the angles of the engagement surface158, the angled surface 127 a and the threaded rod 136 are preferablybetween 10° and 80° relative to the line 123, more preferably between20° and 50°, such as about 25°.

The clevis assembly can be adjusted as follows. A tool such as ascrewdriver or a hex-shaped key can be inserted into the hole 134 toengage the head 144 of the rod 136. The hex-shaped key is employed so asto rotate the threaded rod 136 along its axis of rotation. When thethreaded rod 136 is rotated along its axis of rotation, the clevis 146moves along the length of the threaded rod 136 in a direction thatcorresponds to the direction which the hex-shaped key is turned. Thismovement of the clevis 146 permits the gas spring 112 to be adjusted.Specifically, the clevis 146 moves up or down along the angled surface127 a of the track 127 in a path positioned at the angle θ relative tothe axis 121 and, preferably, at an angle (i.e. not parallel) relativeto the line 123.

It has been discovered that angling the path of the clevis 146 relativeto the axis 121 and to the line 123 of the first endcap 102 provides asignificant increase in the amount of load that the extension arm 100can support, because the angling provides enhanced leverage. Forexample, the conventional extension arm 10 may require an 800 Newton gasspring 40 to effectively support a display. In contrast, the angledclevis configuration in the extension arm 100 can support the same loadusing only a 200 Newton gas spring 112.

This fourfold decrease enables a manufacturer to use a much more compactgas spring than in conventional systems, which, in turn, enables theoverall extension arm 100 to be made smaller. Furthermore, the smallergas spring 112 can be much less expensive than the bigger gas spring 40.Notwithstanding the compactness of the overall design, the cost savingsalone can be a significant force in selling the extension arm 100.

FIGS. 16E and 16F illustrate perspective and cutaway views,respectively, of the upward angled clevis 146 ₁ with the clevisassembly, the first endcap 102 and the gas spring 112. FIGS. 16G and 16Hillustrate perspective and cutaway views, respectively, of the downwardangled clevis 146 ₂ with the clevis assembly, the first endcap 102 andthe gas spring 112. The angles θ, and θ₂ for clevises 146 ₁ and 146 ₂,respectively, may be the same as the angel θ for the clevis 146.Alternatively, the angles θ, and θ₂ may be 10° or less. As will beexplained below, even at or near an angle θ₁ or θ₂ of 0°, the clevises146 ₁ and 146 ₂ will be improvements over a conventional clevis 60.

FIGS. 28A-F illustrate how the upward and downward angled clevises 146 ₁and 146 ₂ function relative to a conventional straight clevis thatadjusts in a manner parallel to the axis 121. Specifically, FIG. 28Ashows the conventional straight clevis 60 positioned at the bottom ofthe track with the arm in an upward extended position. FIG. 28B showsthe straight clevis 60 positioned at the top of the track with the armin a downward extended position. FIG. 28C shows the upward angled clevis146 ₁ positioned at the bottom of the track with the arm in an upwardextended position. FIG. 28D shows the upward angled clevis 146 ₁positioned at the top of the track with the arm in a downward extendedposition. FIG. 28E shows the downward angled clevis 146 ₂ positioned atthe bottom of the track with the arm in an upward extended position.FIG. 28F shows the downward angled clevis 146 ₂ positioned at the top ofthe track with the arm in a downward extended position.

As indicated above, there are clear advantages of employing the clevisesof the present invention instead of the conventional clevis 60. Forexample, for a given gas spring size such as 50 newtons, 200 newtons,400 newtons or 600 newtons, the clevis 146 can handle a user device 302of a greater weight than the clevis 60 can handle. The clevis 146 ₁ cansupport even greater weights than the clevis 146 for a given gas springsize; and the clevis 146 ₂ can support at least the weight supported bythe clevis 146 ₁. Tests have shown that the downward clevis 146 ₂supports the most weight for a given gas spring size. Tests have alsoshown that the downward clevis 146 ₂ permits a greater range of motionfor the extension arm than the clevis 146 or the clevis 60. These testsalso show that the upward clevis 146 ₁ provides the greatest range ofmotion for the extension arm than the clevis 146 or the clevis 60.

The upper channel 104 is illustrated in more detail in FIGS. 17A-F. Theupper channel 104 preferably has a generally U-shaped body including apair of sidewalls 178 and a cover 180. The cover 180 extends between thepair of sidewalls 178 along the length of the upper channel 104. Inorder to avoid parting lines that are present in conventional cast upperchannels, the sidewalls 178 in a preferred embodiment do not includeexternal cast or welded-on rollers. Instead, the sidewalls 178 aresubstantially flat or smooth, and have holes 182 at first and secondends 184 a,b, respectively. See FIG. 17B. The first and second ends 184a,b may have thicker end portions 185, which act as internal rollers.The exposed edges of the end portions 185 about the holes 182 arepreferably rounded to avoid sharp corners and to avoid impingement ofthe first and second endcaps 102, 108.

As seen in the top view 17A and the bottom view 17C, the upper channel104 desirably narrows or tapers from a width W₁ at the first end 184 ato a second width W₂ at the second end 184 b. The views 17D and 17E aretaken facing the first and second ends 184 a,b, respectively. Thetapering is preferably uniform and continuous along the length of theupper channel 104. The greater width W₁ at the first end 184 a providesadditional torsional strength at the base of the upper channel 104.

A reinforcement structure 186 is desirably located in the interior ofthe upper channel 104, as an exterior structure would be visible toend-users. FIG. 17C illustrates the reinforcement structure 186 on theinterior surface of the cover 180. The reinforcement structure 186 ispreferably integrally formed with the cover 180 by, e.g., cast molding,or otherwise attached thereto as a separate assembly. The reinforcementstructure 186 preferably comprises a series of raised ribs 188 andspaces 190 arranged to form, e.g., a honeycomb, trellis, cellular orgenerally cross-ribbed structure. Cross-ribbed reinforcement structuresare referred to herein as “crossribs.” The reinforcement structure 186could also comprise a continuous or otherwise non-ribbed structure.

If the reinforcement structure 186 is located in the interior of theupper channel 104, it necessarily takes up space inside the U-shapedbody. This is undesirable as it limits the range of motion of the gasspring 112 or other extension and retraction device. Therefore, thereinforcement structure 186 preferably tapers in thickness from one endof the upper channel 104 to the other end of the upper channel 104,and/or tapers centrally along the middle of the upper channel 104.

The cross-ribbing or other reinforcement structure may be tapered, asshown and described in pending U.S. application Ser. No. 10/885,854,entitled “Arm Apparatus With Reinforcement,” the entire disclosure ofwhich is hereby expressly incorporated by reference herein.

FIGS. 17A and 17C also show a support or mounting device 192 forattaching the gas spring 112 to the upper channel 104. The mountingdevice 192 preferably includes at least one hook or connector 194,although two connectors 194 are preferred. The cutaway view of FIG. 17Falong the A-A line of FIG. 17A illustrates the connector 194 in moredetail. The gas spring 112 connects to the upper channel 104 with a pin196 or other fastener. The pin 196 is secured to the gas spring 112. Asseen in FIG. 17F, the connector 194 is preferably substantially “J” orhook shaped, although other configurations are possible. The pin 196 isretained by the connector 194, thereby securing the gas spring 112 tothe upper channel 104. A modification to the connector 194 is show inshaded region 194′. The additional material in the shaded region 194′can be included to provide supplemental reinforcement to the connector194 to support very heavy devices.

It is desirable to integrally mold or die cast the mounting device 192,including the connector 194, along with the rest of the upper channel104. In this case, a window 197 is provided in the upper channel 104 toenable the die casting. However, it is also possible separatelyfabricate the mounting device 192 and attach it to the upper channel104.

A cover 198 may be inserted into the window 197 and fastened to theupper channel 104 using fasteners such as screws 200. See FIG. 9. Thecover 198 is illustrated in more detail in FIGS. 18A-E. As seen in theperspective view of FIG. 18A and the top view of FIG. 18B, the cover 198preferably includes an exterior surface 202 having a pair of throughholes 204 adapted to receive the screws 200. The screws 200 areinsertable through the holes 204 and desirably connect to threadedreceptacles in the mounting device 192 (not shown). While two throughholes 204 are shown, at least one through hole 204 should be provided. Adecorative covering 205 (see FIGS. 8-9) may be affixed over the cover198, for example to hide the screws 200 and/or to show themanufacturer's logo or an artistic design.

As seen in the top, bottom and side views of FIGS. 18C-18E,respectively, the cover 198 also preferably includes one or moreprotrusions or posts 206. When the cover 198 is affixed to the window196, the surface 202 is preferably substantially planar with respect tothe outer surface of the cover 180 of the upper channel 104. The posts206 preferably overlie the connectors 194. The fastener or pin 196 issecured between the connectors 194 and the posts 206, thereby securingthe gas spring 112 to the upper channel 104.

The lower channel 106 is illustrated in more detail in FIGS. 19A-F. Thelower channel 106 preferably has a generally U-shaped body including apair of sidewalls 208 and a cover 210. The cover 210 extends between thepair of sidewalls 208 along the length of the lower channel 106. Each ofthe sidewalls 208 preferably has a stepped configuration, and includes afirst portion 208 a adjacent to the cover 210 and a second portion 208 bremote from the cover, as best seen in FIGS. 19B, 19D and 19E.

The first portions 208 a of the sidewalls 208 each have a hole 212 a ata first end 214 a thereof. See FIG. 19B. The second portions 208 b ofthe sidewalls 208 each have a hole 212 b at a second end 214 b thereof.The portions of the first end 214 a adjacent to the holes 212 a arepreferably rounded to avoid sharp corners and to avoid impingement ofthe second endcap 108.

As seen in the top view 19A and the bottom view 19C, the lower channel106 desirably narrows or tapers from a width W₃ at the second end 214 ato a second width W₄ at the first end 214 b. The greater width W₃provides additional torsional strength at the base of the lower channel106. The views 19D and 19E are taken facing the first and second ends214 a,b, respectively. The tapering is preferably uniform and continuousalong the length of the lower channel 106. Also, while it is possible toinclude a reinforcement structure such as the reinforcement structure186, this is not required in the lower channel 106, as it does not bearthe kind of loads the upper channel 104 does.

As seen in FIGS. 19A and 19C, the cover 210 may include an open region216 at or near the second end 214 b. The open region can be used toprovide clearance for the gas spring 112. The open region 216 mayextend, for example, from the second end 214 b to approximately themiddle of the lower channel 106. The open region 216 may include a firstregion 216 a near the second end 214 b and a second region 216 bpositioned nearer the middle of the lower channel 106. In this case, thesecond region 216 b is preferably narrower than the first region 216 a.Furthermore, the cover 210 may include a tapered region 218 adjacent tothe second region 216 b to ensure there is enough clearance for the gasspring 112.

As best seen in FIGS. 19D and 19E, the outer faces of both of the secondportions 208 b are recessed relative to the outer faces of both of thefirst portions 208 a. Thus, when the upper channel 104 and the lowerchannel 106 are assembled together, the inner faces of the sidewalls 178of the upper channel 104 will be disposed next to the outer faces of thesecond portions 208 b of the lower channel 106. As the gas spring 112 isadjusted, for example compressed or uncompressed during movement of theextension arm 100, it is possible for the upper channel 104 to slideforward or backward relative to the lower channel 106, and vice versa.Thus, the relative spacing between the inner faces of the sidewalls 178and the outer faces of the second portions 208 b can change. By way ofexample only, when the gas spring 112 is uncompressed, the spacing maybe between 0.075 and 0.175 inches, such as 0.125 inches. However, whenthe gas spring 112 is fully compressed, the spacing may be anywhere from0.075 to 0.0 inches. Edges 220 of the second end 214 b may be, forexample, contoured, chamfered, beveled and/or mitered, which may be doneto provide clearance for the pins 124 b connecting the lower channel 106to the first endcap 102.

FIGS. 20A-F illustrate views of the second endcap 108. As seen in theperspective view of FIG. 20A, the second endcap 108 includes a housing222. The housing 222 preferably includes a first half 224 for connectingto the upper and lower channels 104, 106, by, for example, pins, asecond half 226 for connecting to the forearm extension 110, and asidewall 228 connecting the first half 224 and the second half 226. Thefirst half 224, the second half 226, and the sidewall 228 are preferablyintegrally molded or cast together. The sidewall 228 may be generallyU-shaped or C-shaped in cross section, and open at one side thereof. Asseen in the side view 20D, the second endcap 108 may have asubstantially triangular shape or outline.

The second endcap 108 desirably includes a circular area or projection230 on or integral with the top of the second half 226. The circulararea or circular projection 230 is used in connecting the second endcap108 to the forearm extension 110, as will be explained below. FIG. 20Fis a cutaway view of the second endcap 108 along the 20A-20A line ofFIG. 20B. As seen in this figure, the projection 230 preferably includesan opening 232 therein. The projection 230 preferably also includes anoverhang or lip 231, which retains a bushing, as will be explained inmore detail below. As seen in FIG. 20E, an opening or access way 233 isdesirably provided along one face of the housing 222.

Preferably, the second endcap 108 includes pairs of upper and lowerholes 234 a,b, respectively, disposed on the sidewall 228. As best seenin FIG. 20D, the upper and lower holes 234 a,b, are preferablyvertically aligned along a line 236.

The first half 224 desirably attaches to the upper channel 104 by meansof a single elongated pin 238 a and to the lower channel 106 by means ofa single elongated pin 238 b. See FIG. 9. The elongated pins 238 a,bshould extend at least the width of the housing 222 and engage the upperand lower channels 104 and 106, respectively. The exterior of thehousing 222 may also include a flange member 240 having an upper flange240 a and a lower flange 240 b disposed on or integral with the secondhalf 226. Similar to the upper and lower flanges 138 a,b of the firstendcap 102, the upper and lower flanges 240 a,b are positioned at anangle Φ₂ relative to one another. The angles Φ₁ and Φ₂ may be the sameor different.

A second endcap cover 242 is presented in FIGS. 21A-D. As shown in theperspective view of FIG. 21A, the second endcap cover 242 is preferablyformed as a single integral piece, which may be, for example, moldedplastic or metal. As seen in the top view of FIG. 21B and the back viewof FIG. 21C, the second endcap cover 242 desirably includes a centralelongated rib 244 and a pair of covers 246 connected at either end ofthe elongated rib 244. The elongated rib 244 is preferably contoured,curved or arced. The covers 246 are preferably shaped to fit the sidesof the second endcap 108. As shown in the figures, the covers 246 aresubstantially flat and are generally triangular in shape. A pair ofpins, protrusions or other fastening members 248 may be disposed on aninside face of each cover 246.

After the second endcap 108 and the upper and lower channels 104, 106are connected together the second endcap cover 242 can be attached. Thesecond endcap cover 242 is adapted to cover the outer surfaces of thesidewall 228 of the second endcap 108, and can be used to modify orenhance the appearance of the second endcap 108. See FIG. 8. Theelongated rib 244 of the second endcap cover 242 preferably fits betweenthe upper and lower flanges 240 a,b on either side of the second endcap108. A first pair 248 a of the fastening members 248 can connect toholes or openings in the upper channel 104. A second pair 248 b of thefastening members 248 can connect to holes or openings in the lowerchannel 106.

Curved, arched or angled projections 250 on the elongated rib 244 alsopreferably fit at the juncture between the upper and lower flanges 240a,b on either side of the second endcap 108. An extended, angled orcontoured part 252 of the elongated rib 244 preferably projects awayfrom the second endcap 108. The extended part 252 can be used to providecable management, so that a cable or cord of the device 302 isinsertable between the extended part 252 and the second endcap 108.

FIGS. 22A-B illustrate exploded views of forearm assembly 254 with andwithout the second endcap 108. As seen in the figures, the forearmassembly 254 desirably includes the forearm extension 110, bushing 256,washer 258, and a retaining mechanism such as a threaded screw or bolt260. A second washer 262 may also be used. The washer 258 and theforearm extension 110 have been specially configured as described belowto prevent loosening of the forearm extension 110 as it is moved oradjusted. This is necessary because in conventional extension arms, oncethe forearm extension is moved, for example rotated about the secondendcap, the connection between the forearm extension and the secondendcap tends to loosen, which is undesirably and potentially hazardous,especially with heavy monitors or displays.

As best seen in FIG. 22B, the bottom of the forearm extension 110 ispreferably configured to include a shaft 264 or other connection device.The shaft 264 includes a central opening or receptacle 266 at the bottomthereof, as well as one or more notches or recesses 268 on either sideof the shaft 264. A recess or depression 270 may also be included at thebottom of the forearm extension 110 encircling the shaft 264 to receivethe second washer 262.

FIGS. 23A-D illustrate the washer 258 in more detail. As seen in theperspective view 23A and the top view 23B, the washer 258 preferably hasa circular base 272 with a through hole 274 in the center. As shown inthe side views of FIGS. 23C-D, a pair of protrusions or posts 276 isdisposed on one side of the base 272. The posts 276 are adapted tosecurely fit the recesses 268 on the shaft 264.

FIGS. 24A-B illustrate cutaways views to show assembly of the secondendcap 108 and the forearm assembly 254. Bushing 256, which may be aplastic material such as nylon, is inserted into the second endcap 108through the opening or access way 233 prior to connection with theforearm extension 110. The bushing 256 is sized to fit within theopening 232. Washer 262 is placed around the circular area or projection230 on the endcap 108. The bolt 260 is inserted into the through hole274 of the washer 258. The washer 258 and the bolt 260 may be insertedinto the access way 233 of the second endcap 108 so that the tip of thebolt projects through the opening 232 of the projection 230. The washer258 is positioned so that the posts 276 mate with the recesses 268 onthe shaft 264. Then, the bolt 260 threadedly engages the receptacle 266.As seen in FIG. 24B, the bushing 256 is retained between the washer 258at one end and the lip 231 at the other end. When the bolt 260 istightened, the washer 258 compresses the bushing 256 around the shaft264 of the forearm extension 110. The posts 276 prevent the washer 258from moving during adjustment. Thus, the forearm extension 110 is ableto rotate relative to the second endcap 108, and the specialconfiguration of the washer 258 and the shaft 264 prevents loosening ofthe connection.

FIG. 24B illustrates a partial cutaway view showing the forearm assembly254 connected to the second endcap 108. Once the forearm assembly 254 isattached to the second endcap 108, the second endcap cover 242 may beconnected as discussed above.

FIG. 25 illustrates an exploded view of the upper end of the forearmextension 110 and an exemplary tilting device 300 which may be used inconjunction with the present invention. The tilting device may be thesame or similar to the tilting devices disclosed in pending U.S.application Ser. No. 11/058,820, filed Feb. 16, 2005, and entitled“Quick Release Assembly for an Electronic Device,” or pending U.S.application Ser. No. 10/461,637, filed Jun. 13, 2003 and entitled“Tilter Apparatus for Electronic Device Having Bias Assembly,” theentire disclosures of which are fully incorporated by reference herein.Alternatively, as indicated above, the tilting device 300 may also beone of the devices shown and described in U.S. Pat. No. 6,505,988.

As shown in FIG. 25, the exemplary tilting device 300 includes a tilterhead 304, a tilter mount 306, an adapter unit 308, and a tilter bar 310coupling the tilter mount 306 to the tilter head 304. The adapter unit308 couples the electronic device 302 to the tilting device 300. Awasher 312, a rivet 314 and fasteners 316 may also be a part of thetilting device 300. While the configuration of the tilting device 300 isnot critical to the present invention, one may refer to theaforementioned U.S. patent application and U.S. Pat. No. 6,505,988 forspecific details and examples. Nonetheless, the tilting device 300 mayconnect to the forearm extension 110 using a threaded screw or bolt 318.

Alternatively, the special washer configuration discussed above withregard to connecting the forearm extension 110 to the second endcap 108may be employed. Specifically, as seen in FIG. 25B, the shaft 340 of thetilter head 304 may include an opening or receptacle 342 such as thereceptacle 266 at the bottom thereof, as well as a pair of notches orrecesses 344 such as the recesses 268 on either side of the shaft. Thebushing 256, the washer 258, and the retaining mechanism such as thethreaded screw or bolt 260 may be employed, and the second washer 262may also be used. In this case, the tilting device 300 would preferablyconnect to the forearm extension 110 in the same manner that the forearmextension 110 connects to the second endcap 108. However, the tiltingdevice 300 could directly connect to the second endcap 108. Furthermore,it should be understood that the anti-loosening connection could also beemployed at other positions on the extension arm 100, such as at theconnection between the shaft 128 and the mounting assembly 400.

FIG. 26A illustrates a top view of the fully assembled extension arm100, the tilting device 300, the monitor 302 and the mounting assembly400. FIG. 26B illustrates a cutaway view of the system along the A-Aline of FIG. 26A. As seen in the straight position of FIG. 26A, thetapering of the upper and lower channels 104, 106 is preferablycontinued by the forearm extension 110. This gives extension arm 100 theappearance of a constant projection. Furthermore, as mentioned abovewith respect to the upper and lower channels 104, 106, the greater widthat the lower end of the forearm extension 110 provides enhancedtorsional strength. The relative spacing between the inner faces of thesidewalls 178 of the upper channel 104 and the outer faces of thesidewalls 208 of the lower channel 106 helps maintain this constantprojection, even as the gas piston 112 is compressed or uncompressed.

FIGS. 27A-F illustrate the extension arm 100 in various positions thatthe user can selectively adjust. Here, the clevis 146 is shown invarious adjustment positions, although the clevis 146 ₁ or the clevis146 ₂ could also be employed. As discussed above with regards to FIGS.28A-F, the devises and assemblies of the present invention provide agreater range of motion for the extension arm than conventional devices.Also, heavier user devices 302 can also be supported for a given spring,particularly with the upward and downward devises 146 ₁ and 146 ₂. Theforearm extension 110 is omitted from these figures, as the tiltingdevice 300 may also connect directly to the second endcap 108 of theextension arm 100. As seen in FIGS. 27A-B, the upper and lower channels104, 106 can be placed in a fully extended and raised position. As shownin FIG. 27A, when the clevis 146 is fully raised to the top of thehousing 114, the gas spring 112 may be substantially or completelyretained within the lower channel 106. However, as shown in FIG. 27B,when the clevis 146 is fully lowered to the bottom of the housing 114,the gas spring 112 may partially extend through the open region 216 ofthe lower channel 106.

In FIGS. 27C-D, the upper and lower channels 104, 106 can be placed in ahorizontal position. As shown in FIG. 27C, when the clevis 146 is fullyraised to the top of the housing 114, the gas spring 112 may partlyextend through the open region 216 of the lower channel 106. However, asshown in FIG. 27D, when the clevis 146 is fully lowered to the bottom ofthe housing 114, the bottom end of the gas spring 112 may substantiallyor fully extend through the open region 216 of the lower channel 106.

In FIGS. 27E-F, the upper and lower channels 104, 106 can be placed in afully extended and lowered position. As shown in FIG. 27E, when theclevis 146 is fully raised to the top of the housing 114, the gas spring112 may slightly extend through the open region 216 of the lower channel106. However, as shown in FIG. 27F, when the clevis 146 is fully loweredto the bottom of the housing 114, the bottom end of the gas spring 112may extend further through the open region 216 of the lower channel 106.

FIGS. 29A-F illustrate views of the extension arm 100 including theforearm extension 110, and show examples of how the upper and lowerchannels 104, 106 and the forearm extension 110 may be positioned. FIGS.29A-B show the upper and lower channels 104, 106 and the forearmextension 110 in a fully extended and upward position. As seen in FIG.29A, a second extended part 278 may be placed on the mounting cup 404 toprovide cable management along with the extended part 252 projectingaway from the second endcap 108. FIGS. 29C-D show the upper and lowerchannels 104, 106 in a downward position, while the forearm extension110 is placed in an upward position. FIGS. 29E-F show the extension arm100 in a folded position, wherein the forearm extension 110 ispositioned over the upper channel 104. Of course, it should beunderstood that there are nearly limitless possibilities on how toposition the different components of the extension arm 100, and thatthese figures are merely illustrative of a few positions that a user mayselect.

Novel clevis assemblies in accordance with aspects of the inventionenable smaller gas springs to be used without sacrificing performance.Not only can the extension arm be made smaller, but performance andflexibility are greatly increased. The interlocking washer and shaftconfiguration prevents loose connections between rotatable components,and can be used in different locations on extension arms. In addition,the tapered channels and extension pieces provide sleek yet compactdesigns that are sturdy enough to handle heavy and bulky displays andother devices.

Although the invention herein has been described with reference toparticular embodiments, it is to be understood that these embodimentsare merely illustrative of the principles and applications of thepresent invention. It is therefore to be understood that numerousmodifications may be made to the illustrative embodiments and that otherarrangements may be devised without departing from the spirit and scopeof the present invention as defined by the appended claims. By way ofexample only, while different embodiments described above illustratespecific features, it is within the scope of the present invention tocombine or interchange different features among the various embodimentsto create other variants. Any of the features in any of the embodimentscan be combined or interchanged with any other features in any of theother embodiments.

1. An adjustable support apparatus, comprising: a first endcap having afirst section for connecting to a mount, a second section connected tothe first section, and a clevis receiving member connected to one orboth of the first and second sections, the first endcap having alongitudinal axis therealong and including a housing connecting thefirst and second sections, the clevis receiving member being disposedalong an interior sidewall of the housing; a second endcap having firstand second sections, the first section of the second endcap forsupporting a user device and the second section of the second endcapbeing connected to the first section of the second endcap; a firstchannel having first and second ends, the first end of the first channelbeing connected to the second section of the first endcap, and thesecond end of the first channel being connected to the second section ofthe second endcap; a second channel having first and second ends, thefirst end of the second channel being connected to the second section ofthe first endcap, and the second end of the second channel beingconnected to the second section of the second endcap; and a clevisassembly including a clevis in operative engagement with the clevisreceiving member of the first endcap and with a spring member coupled tothe first channel; wherein the clevis is adjustable along the clevisreceiving member at a predetermined angle relative to the axis of thefirst endcap to change a compression state of the spring member, andwherein the clevis receiving member includes a surface having thepredetermined angle sloping from the second section to the firstsection.
 2. The adjustable support apparatus of claim 1, wherein theclevis assembly further comprises a rod in threaded engagement with theclevis, the rod being positioned at the predetermined angle relative tothe axis of the first endcap.
 3. The adjustable support apparatus ofclaim 1, wherein the predetermined angle is between 10° and 80°.
 4. Theadjustable support apparatus of claim 1, wherein the predetermined angleis between about 45° to 70°.
 5. The adjustable support apparatus ofclaim 1, further comprising a first fastener having a first length and apair of second fasteners each having a second length shorter than thefirst length, wherein the first end of the first channel connects to thesecond section of the first endcap with the first fastener and the firstend of the second channel connects to the second section of the firstendcap with the pair of second fasteners.
 6. The adjustable supportapparatus of claim 5, wherein the first endcap includes a housingconnecting the first and second sections and the housing includes a pairof reinforcing members to support the pair of second fasteners therein.7. The adjustable support apparatus of claim 1, further comprising atleast one endcap cover, wherein the first endcap further includes aflange member connected to the first and second sections, and the atleast one endcap cover is adapted to be placed adjacent to the flangemember and cover a portion of the first endcap.
 8. An adjustable supportapparatus, comprising: a first endcap having a first section forconnecting to a mount, a second section connected to the first section,and a clevis receiving member connected to one or both of the first andsecond sections, the first endcap having a longitudinal axis therealong;a second endcap having first and second sections, the first section ofthe second endcap for supporting a user device and the second section ofthe second endcap being connected to the first section of the secondendcap; a first channel having first and second ends, the first end ofthe first channel being connected to the second section of the firstendcap, and the second end of the first channel being connected to thesecond section of the second endcap; a second channel having first andsecond ends, the first end of the second channel being connected to thesecond section of the first endcap, and the second end of the secondchannel being connected to the second section of the second endcap; anda clevis assembly including a clevis in operative engagement with theclevis receiving member of the first endcap and with a spring membercoupled to the first channel; wherein the clevis is adjustable along theclevis receiving member at a predetermined angle relative to the axis ofthe first endcap to change a compression state of the spring member, andwherein the first channel further includes an integrally moldedconnector having an angled receiving member for securing the springmember to the first channel.
 9. The adjustable support apparatus ofclaim 8, further comprising a retaining cover connectable to the firstchannel, wherein the spring member is secured to the first channelbetween the retaining cover and the angled receiving member.
 10. Theadjustable support apparatus of claim 1, wherein the first channelfurther includes a reinforcement structure therein.
 11. An adjustablesupport apparatus, comprising: a first endcap having first and secondends and a longitudinal axis from the first end to the second end, thesecond end including means for mounting the adjustable support apparatusto a surface; a second endcap having means for supporting a user device;a first channel having first and second ends, the first end of the firstchannel being connected to the first end of the first endcap, and thesecond end of the first channel being connected to the second endcap; asecond channel having first and second ends, the first end of the secondchannel being connected to the first end of the first endcap, and thesecond end of the second channel being connected to the second endcap,the first and second channels defining a cavity for containing a springmechanism therein; and means for adjusting the spring mechanism, themeans for adjusting being moveable along a path at a predetermined anglerelative to the axis of the first endcap; wherein the first channelfurther includes an integrally molded connector having an angledreceiving member for securing the spring mechanism to the first channel.12. An adjustment assembly for adjustably supporting a device with anextension and retraction mechanism, the adjustment assembly comprising:a housing a first section for connecting to a mount and a second sectionconnected to the first section, the housing having a longitudinal axistherealong and a clevis receiving member including a track positioned atan angle relative to the longitudinal axis, the clevis receiving memberbeing disposed along an interior sidewall of the housing, and the tracksloping along the angle from the second section to the first section; aclevis having first and second ends, the first end having a surface forengaging the track and the second end having an opening therein forconnecting the extension and retraction mechanism at a first endthereof; and a channel apparatus having a first end connected to thehousing and a second end connected to a second end of the extension andretraction mechanism; wherein the clevis is adjustable along the trackto change positioning of the extension and retraction mechanism.
 13. Theadjustment assembly of claim 12, further comprising: a rod forthreadedly adjusting the clevis along the track, the rod having a headat one end thereof, a tip remote from the head, and a threaded sectiondisposed between the head and the tip; and a retaining plate forsecuring the rod to an edge of the housing, the edge of the housing andthe retaining plate including mating recesses defining a receptacle forreceiving the tip of the rod therein.
 14. The adjustment assembly ofclaim 12, wherein the clevis includes bottom and top surfaces that aresubstantially parallel to one another, and the opening of the clevis ispositioned at a height at a midpoint between the bottom and topsurfaces.
 15. The adjustment assembly of claim 12, wherein the clevisincludes bottom and top surfaces that are substantially parallel to oneanother, and the opening of the clevis is positioned at a height above amidpoint between the bottom and top surfaces.
 16. The adjustmentassembly of claim 15, wherein the second end of the clevis is angledupward.
 17. The adjustment assembly of claim 12, wherein the clevisincludes bottom and top surfaces that are substantially parallel to oneanother, and the opening of the clevis is positioned at a height below amidpoint between the bottom and top surfaces.
 18. The adjustmentassembly of claim 17, wherein the second end of the clevis is angleddownward.
 19. The adjustment assembly of claim 12, wherein the secondend of the clevis includes a pair of spaced apart fastening members andthe opening comprises a pair of aligned opening, a first one of theopenings being positioned in a first one of the fastening members and asecond one of the openings being positioned in a second one of thefastening members, and the clevis including a receptacle for threadedlyadjusting the clevis along the track, wherein the angle of the track isa first angle relative to the longitudinal axis and the receptacle ispositioned at a second angle relative to the longitudinal axis.
 20. Theadjustment assembly of claim 19, wherein the first and second angles aresubstantially equal.